串联氢解/芳构化法将聚乙烯升级为长链烷基芳烃。

Polyethylene upcycling to long-chain alkylaromatics by tandem hydrogenolysis/aromatization.

机构信息

Department of Chemical Engineering, University of California, Santa Barbara, CA 93106, USA.

Department of Chemistry and Biochemistry, University of California, Santa Barbara, CA 93106, USA.

出版信息

Science. 2020 Oct 23;370(6515):437-441. doi: 10.1126/science.abc5441.

DOI:10.1126/science.abc5441

PMID:33093105

Abstract

The current scale of plastics production and the accompanying waste disposal problems represent a largely untapped opportunity for chemical upcycling. Tandem catalytic conversion by platinum supported on γ-alumina converts various polyethylene grades in high yields (up to 80 weight percent) to low-molecular-weight liquid/wax products, in the absence of added solvent or molecular hydrogen, with little production of light gases. The major components are valuable long-chain alkylaromatics and alkylnaphthenes (average ~C, dispersity Ð = 1.1). Coupling exothermic hydrogenolysis with endothermic aromatization renders the overall transformation thermodynamically accessible despite the moderate reaction temperature of 280°C. This approach demonstrates how waste polyolefins can be a viable feedstock for the generation of molecular hydrocarbon products.

摘要

目前的塑料生产规模和随之而来的废物处理问题为化学升级提供了一个尚未充分开发的机会。在没有添加溶剂或分子氢的情况下，γ-氧化铝负载的铂进行串联催化转化，可以将各种聚乙烯等级以高收率（高达 80 重量%）转化为低分子量液体/蜡产品，产生的轻气体很少。主要成分是有价值的长链烷基芳烃和烷基环烷烃（平均~C，分散度Ð=1.1）。放热的氢解与吸热的芳构化相结合，使得尽管反应温度为 280°C，但整个转化在热力学上是可行的。该方法展示了废聚烯烃如何成为生成分子烃类产品的可行原料。

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串联氢解/芳构化法将聚乙烯升级为长链烷基芳烃。

Polyethylene upcycling to long-chain alkylaromatics by tandem hydrogenolysis/aromatization.

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